Altreshttp://hdl.handle.net/2117/53442019-09-21T12:09:56Z2019-09-21T12:09:56ZSingular solutions for a class of traveling wave equations arising in hydrodynamics (Poster)Geyer, AnnaMañosa Fernández, Víctorhttp://hdl.handle.net/2117/897472019-01-24T15:09:33Z2016-09-08T11:36:28ZSingular solutions for a class of traveling wave equations arising in hydrodynamics (Poster)
Geyer, Anna; Mañosa Fernández, Víctor
Poster presentat al congrés
2016-09-08T11:36:28ZGeyer, AnnaMañosa Fernández, VíctorActive vibration control in mechanical systemsSun, WeichaoKarimi, Hamid RezaYin, ShenRossell Garriga, Josep Mariahttp://hdl.handle.net/2117/777972019-01-24T15:05:57Z2015-10-15T18:13:31ZActive vibration control in mechanical systems
Sun, Weichao; Karimi, Hamid Reza; Yin, Shen; Rossell Garriga, Josep Maria
2015-10-15T18:13:31ZSun, WeichaoKarimi, Hamid RezaYin, ShenRossell Garriga, Josep MariaPrácticas complementarias al curso de Matemáticas II al tema de las derivadas parciales: Procesamiento digital de imágenesAcho Zuppa, Leonardohttp://hdl.handle.net/2117/763362019-01-24T15:36:43Z2015-07-27T11:11:09ZPrácticas complementarias al curso de Matemáticas II al tema de las derivadas parciales: Procesamiento digital de imágenes
Acho Zuppa, Leonardo
Documento docente sobre algunas aplicaciones de las derivadas parciales al procesamiento digital de imágenes.
Documento docente sobre algunas aplicaciones de las derivadas parciales al procesamiento digital de imágenes.
2015-07-27T11:11:09ZAcho Zuppa, LeonardoDocumento docente sobre algunas aplicaciones de las derivadas parciales al procesamiento digital de imágenes.Dynamics of integrable birational maps preserving genus 0 foliationsLlorens, MireiaMañosa Fernández, Víctorhttp://hdl.handle.net/2117/244312019-01-24T15:01:22Z2014-10-20T11:50:10ZDynamics of integrable birational maps preserving genus 0 foliations
Llorens, Mireia; Mañosa Fernández, Víctor
Pòster presentat al congrés NPDDS2014
2014-10-20T11:50:10ZLlorens, MireiaMañosa Fernández, VíctorPeriodic orbits of integrable birational maps on the plane: blending dynamics and algebraic geometry, the Lyness' caseBastien, GuyMañosa Fernández, VíctorRogalski, Marchttp://hdl.handle.net/2117/167952019-01-24T15:29:18Z2012-10-24T16:10:14ZPeriodic orbits of integrable birational maps on the plane: blending dynamics and algebraic geometry, the Lyness' case
Bastien, Guy; Mañosa Fernández, Víctor; Rogalski, Marc
Contingut del Pòster presentat al congrés New Trends in Dynamical Systems
2012-10-24T16:10:14ZBastien, GuyMañosa Fernández, VíctorRogalski, MarcContingut del Pòster presentat al congrés New Trends in Dynamical SystemsGlobal periodicity conditions for maps and recurrences via Normal FormsCima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, Víctorhttp://hdl.handle.net/2117/159472019-01-24T15:28:47Z2012-05-30T14:50:00ZGlobal periodicity conditions for maps and recurrences via Normal Forms
Cima Mollet, Anna; Gasull Embid, Armengol; Mañosa Fernández, Víctor
We face the problem of characterizing the periodic cases in parametric families of (real or complex) rational diffeomorphisms having a fixed point. Our approach relies on the Normal Form Theory, to obtain necessary conditions for the existence of a formal linearization of the map, and on the introduction of a suitable rational parametrization of the parameters of the family. Using these tools we can find a finite set of values p for which the map can be p-periodic, reducing the problem of finding the parameters for which the periodic cases appear to simple computations. We apply our results to several two and three dimensional classes of polynomial or rational maps. In particular we find the global periodic cases for several Lyness type recurrences
2012-05-30T14:50:00ZCima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, VíctorWe face the problem of characterizing the periodic cases in parametric families of (real or complex) rational diffeomorphisms having a fixed point. Our approach relies on the Normal Form Theory, to obtain necessary conditions for the existence of a formal linearization of the map, and on the introduction of a suitable rational parametrization of the parameters of the family. Using these tools we can find a finite set of values p for which the map can be p-periodic, reducing the problem of finding the parameters for which the periodic cases appear to simple computations. We apply our results to several two and three dimensional classes of polynomial or rational maps. In particular we find the global periodic cases for several Lyness type recurrencesOn periodic solutions of 2-periodic Lyness difference equationsBastien, GuyMañosa Fernández, VíctorRogalski, Marchttp://hdl.handle.net/2117/144402019-01-24T14:52:53Z2012-01-10T08:45:03ZOn periodic solutions of 2-periodic Lyness difference equations
Bastien, Guy; Mañosa Fernández, Víctor; Rogalski, Marc
We study the existence of periodic solutions of the non--autonomous periodic Lyness' recurrence u_{n+2}=(a_n+u_{n+1})/u_n, where {a_n} is a cycle with positive values a,b and with positive initial conditions. It is known that for a=b=1 all the sequences generated by this recurrence are 5-periodic. We prove that for each pair (a,b) different from (1,1) there are infinitely many initial conditions giving rise to periodic sequences, and that the family of recurrences have almost all the even periods. If a is not equal to b, then any odd period, except 1, appears.
Preprint
2012-01-10T08:45:03ZBastien, GuyMañosa Fernández, VíctorRogalski, MarcWe study the existence of periodic solutions of the non--autonomous periodic Lyness' recurrence u_{n+2}=(a_n+u_{n+1})/u_n, where {a_n} is a cycle with positive values a,b and with positive initial conditions. It is known that for a=b=1 all the sequences generated by this recurrence are 5-periodic. We prove that for each pair (a,b) different from (1,1) there are infinitely many initial conditions giving rise to periodic sequences, and that the family of recurrences have almost all the even periods. If a is not equal to b, then any odd period, except 1, appears.Integrability and non-integrability of periodic non-autonomous Lyness recurrences (revised and enlarged version)Cima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, Víctorhttp://hdl.handle.net/2117/143452019-01-24T15:28:06Z2011-12-29T09:24:44ZIntegrability and non-integrability of periodic non-autonomous Lyness recurrences (revised and enlarged version)
Cima Mollet, Anna; Gasull Embid, Armengol; Mañosa Fernández, Víctor
This paper studies non-autonomous Lyness type recurrences of the form xn+2 = (an+xn+1)=xn, where fang is a k-periodic sequence of positive numbers with primitive period k. We show that for the cases k 2 f1; 2; 3; 6g the behavior of the sequence fxng is simple (integrable) while for the remaining cases satisfying this behavior can be much more complicated (chaotic). We also show that the cases where k is a multiple of 5 present some di erent features.
Preprint. Versió revisada i augmentada d'un anterior report homònim.
2011-12-29T09:24:44ZCima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, VíctorThis paper studies non-autonomous Lyness type recurrences of the form xn+2 = (an+xn+1)=xn, where fang is a k-periodic sequence of positive numbers with primitive period k. We show that for the cases k 2 f1; 2; 3; 6g the behavior of the sequence fxng is simple (integrable) while for the remaining cases satisfying this behavior can be much more complicated (chaotic). We also show that the cases where k is a multiple of 5 present some di erent features.Integrability and non-integrability of periodic non-autonomous Lyness recurrencesCima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, Víctorhttp://hdl.handle.net/2117/107702019-01-24T15:25:54Z2010-12-28T08:59:34ZIntegrability and non-integrability of periodic non-autonomous Lyness recurrences
Cima Mollet, Anna; Gasull Embid, Armengol; Mañosa Fernández, Víctor
This paper studies non-autonomous Lyness type recurrences of the form x_{n+2}=(a_n+x_n)/x_{n+1}, where a_n is a k-periodic sequence of positive numbers with prime period k. We show that for the cases k in {1,2,3,6} the behavior of the sequence x_n is simple(integrable) while for the remaining cases satisfying k not a multiple of 5 this behavior can be much more complicated(chaotic). The cases k multiple of 5 are studied separately.
Preprint arXiv:1012.4925
2010-12-28T08:59:34ZCima Mollet, AnnaGasull Embid, ArmengolMañosa Fernández, VíctorThis paper studies non-autonomous Lyness type recurrences of the form x_{n+2}=(a_n+x_n)/x_{n+1}, where a_n is a k-periodic sequence of positive numbers with prime period k. We show that for the cases k in {1,2,3,6} the behavior of the sequence x_n is simple(integrable) while for the remaining cases satisfying k not a multiple of 5 this behavior can be much more complicated(chaotic). The cases k multiple of 5 are studied separately.Rational periodic sequences for the Lyness recurrenceGasull Embid, ArmengolMañosa Fernández, VíctorXarles Ribas, Xavierhttp://hdl.handle.net/2117/71352019-01-24T15:23:41Z2010-05-06T12:34:53ZRational periodic sequences for the Lyness recurrence
Gasull Embid, Armengol; Mañosa Fernández, Víctor; Xarles Ribas, Xavier
Consider the celebrated Lyness recurrence $x_{n+2}=(a+x_{n+1})/x_{n}$ with $a\in\Q$. First we prove that there exist initial conditions and values of $a$ for which it generates periodic sequences of rational numbers with prime periods $1,2,3,5,6,7,8,9,10$ or $12$ and that these are the only periods that rational sequences $\{x_n\}_n$ can have. It is known that if we restrict our attention to positive rational values of $a$ and positive rational initial conditions the only possible periods are $1,5$ and $9$. Moreover 1-periodic and 5-periodic sequences are easily obtained. We prove that for infinitely many positive values of $a,$ positive 9-period rational sequences occur. This last result is our main contribution and answers an open question left in previous works of Bastien \& Rogalski and Zeeman. We also prove that the level sets of the invariant associated to the Lyness map is a two-parameter family of elliptic curves that is a universal family of the elliptic curves with a point of order $n, n\ge5,$ including $n$ infinity. This fact implies that the Lyness map is a universal normal form for most birrational maps on elliptic curves.
2010-05-06T12:34:53ZGasull Embid, ArmengolMañosa Fernández, VíctorXarles Ribas, XavierConsider the celebrated Lyness recurrence $x_{n+2}=(a+x_{n+1})/x_{n}$ with $a\in\Q$. First we prove that there exist initial conditions and values of $a$ for which it generates periodic sequences of rational numbers with prime periods $1,2,3,5,6,7,8,9,10$ or $12$ and that these are the only periods that rational sequences $\{x_n\}_n$ can have. It is known that if we restrict our attention to positive rational values of $a$ and positive rational initial conditions the only possible periods are $1,5$ and $9$. Moreover 1-periodic and 5-periodic sequences are easily obtained. We prove that for infinitely many positive values of $a,$ positive 9-period rational sequences occur. This last result is our main contribution and answers an open question left in previous works of Bastien \& Rogalski and Zeeman. We also prove that the level sets of the invariant associated to the Lyness map is a two-parameter family of elliptic curves that is a universal family of the elliptic curves with a point of order $n, n\ge5,$ including $n$ infinity. This fact implies that the Lyness map is a universal normal form for most birrational maps on elliptic curves.